Identifi cation of protease exosite-interacting peptides that enhance substrate cleavage kinetics

Many peptidases are thought to require non-active site interaction surfaces, or exosites, to recognize and cleave physiological substrates with high specifi city and catalytic effi ciency. However, the existence and function of protease exosites remain obscure owing to a lack of effective methods to...

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Veröffentlicht in:	Biological chemistry 2012-09, Vol.393 (9), p.933-941
Hauptverfasser:	Jabaiah, Abeer M., Getz, Jennifer A., Witkowski, Witold A., Hardy, Jeanne A., Daugherty, Patrick S.
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Sprache:	eng
Schlagworte:	CLiPS exosite protease substrate thrombin
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creator	Jabaiah, Abeer M. Getz, Jennifer A. Witkowski, Witold A. Hardy, Jeanne A. Daugherty, Patrick S.
description	Many peptidases are thought to require non-active site interaction surfaces, or exosites, to recognize and cleave physiological substrates with high specifi city and catalytic effi ciency. However, the existence and function of protease exosites remain obscure owing to a lack of effective methods to identify and characterize exosite-interacting substrates. To address this need, we modifi ed the cellular libraries of peptide substrates (CLiPS) methodology to enable the discovery of exosite-interacting peptide ligands. Invariant cleavage motifs recognized by the active sites of thrombin and caspase-7 were displayed on the outer surface of bacteria adjacent to a candidate exosite-interacting peptide. Exosite peptide libraries were then screened for ligands that accelerate cleavage of the active site recognition motif using two-color fl ow cytometry. Exosite CLiPS (eCLiPS) identifi ed exosite-binding peptides for thrombin that were highly similar to a critical exosite interaction motif in the thrombin substrate, proteaseactivated receptor 1. Protease activity probes incorporating exosite-binding peptides were cleaved ten-fold faster than substrates without exosite ligands, increasing their sensitivity to thrombin activity . For comparison, screening with caspase-7 yielded peptides that modestly enhanced (two-fold) substrate cleavage rates. The eCLiPS method provides a new tool to profi le the ligand specifi city of protease exosites and to develop improved substrates.
doi_str_mv	10.1515/hsz-2012-0162
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However, the existence and function of protease exosites remain obscure owing to a lack of effective methods to identify and characterize exosite-interacting substrates. To address this need, we modifi ed the cellular libraries of peptide substrates (CLiPS) methodology to enable the discovery of exosite-interacting peptide ligands. Invariant cleavage motifs recognized by the active sites of thrombin and caspase-7 were displayed on the outer surface of bacteria adjacent to a candidate exosite-interacting peptide. Exosite peptide libraries were then screened for ligands that accelerate cleavage of the active site recognition motif using two-color fl ow cytometry. Exosite CLiPS (eCLiPS) identifi ed exosite-binding peptides for thrombin that were highly similar to a critical exosite interaction motif in the thrombin substrate, proteaseactivated receptor 1. Protease activity probes incorporating exosite-binding peptides were cleaved ten-fold faster than substrates without exosite ligands, increasing their sensitivity to thrombin activity . For comparison, screening with caspase-7 yielded peptides that modestly enhanced (two-fold) substrate cleavage rates. 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Protease activity probes incorporating exosite-binding peptides were cleaved ten-fold faster than substrates without exosite ligands, increasing their sensitivity to thrombin activity . For comparison, screening with caspase-7 yielded peptides that modestly enhanced (two-fold) substrate cleavage rates. 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Protease activity probes incorporating exosite-binding peptides were cleaved ten-fold faster than substrates without exosite ligands, increasing their sensitivity to thrombin activity . For comparison, screening with caspase-7 yielded peptides that modestly enhanced (two-fold) substrate cleavage rates. The eCLiPS method provides a new tool to profi le the ligand specifi city of protease exosites and to develop improved substrates.</abstract><pub>Walter de Gruyter</pub><doi>10.1515/hsz-2012-0162</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	CLiPS exosite protease substrate thrombin
title	Identifi cation of protease exosite-interacting peptides that enhance substrate cleavage kinetics
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